| 1 |
PGM-free biomass-derived electrocatalysts for oxygen reduction in energy conversion devices: promising materials |
S Zago, LC Scarpetta-Pizo, JH Zagal, S Specchia |
Electrochemical Energy Reviews 7 (1), 1 |
16 |
2.024 |
| 2 |
Fuel flexible SOFC with a Mo-doped CeO2/YSZ mesoporous anode fabricated by the evaporation induced self-assembly (EISA) method |
I Díaz-Aburto, M Colet-Lagrille, I Fuentes, M Herrera-Maldonado, ... |
Journal of Power Sources 621, 235295 |
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2.024 |
| 3 |
Electrocatalytic oxygen reduction on metalloporphyrins. Second coordination sphere substituents on the ligand: Electronic and steric effects through pocket and extended … |
CP Silva, CP Candia, M Paredes, E Imbarack, F Martínez-Gómez, ... |
Journal of Catalysis 430, 115365 |
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2.024 |
| 4 |
Hydrazine Oxidation Electrocatalysis |
TY Burshtein, Y Yasman, L Muñoz-Moene, JH Zagal, D Eisenberg |
ACS Catalysis 14 (4), 2264-2283 |
18 |
2.024 |
| 5 |
Titelbild: Electron Spin‐Dependent Electrocatalysis for the Oxygen Reduction Reaction in a Chiro‐Self‐Assembled Iron Phthalocyanine Device (Angew. Chem. 4/2024) |
L Scarpetta‐Pizo, R Venegas, P Barrías, K Muñoz‐Becerra, ... |
Angewandte Chemie 136 (4), e202319147 |
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2.024 |
| 6 |
Cover Picture: Electron Spin‐Dependent Electrocatalysis for the Oxygen Reduction Reaction in a Chiro‐Self‐Assembled Iron Phthalocyanine Device (Angew. Chem. Int. Ed. 4/2024) |
L Scarpetta‐Pizo, R Venegas, P Barrías, K Muñoz‐Becerra, ... |
Angewandte Chemie International Edition 63 (4), e202319147 |
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2.024 |
| 7 |
Electron Spin‐Dependent Electrocatalysis for the Oxygen Reduction Reaction in a Chiro‐Self‐Assembled Iron Phthalocyanine Device |
L Scarpetta‐Pizo, R Venegas, P Barrías, K Muñoz‐Becerra, ... |
Angewandte Chemie 136 (4), e202315146 |
9 |
2.024 |
| 8 |
Hydrazine Oxidation Electrocatalysis |
DE Tomer Y. Burshtein, Yakov Y. Yasman, Lisa Muñoz-Moene, José H. Zagal |
ACS Catalysis |
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2.024 |
| 9 |
PGM-free biomass-derived electrocatalysts for oxygen reduction reaction in energy conversion devices: promising materials |
SS Stefano Zago, Laura C. Scarpetta Pizo, José H. Zagal |
Chemical Engineering Reviews 7 (1), 1-52 |
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2.024 |
| 10 |
Using reactivity predictors for enhancing the electrocatalytic activity of MN4 molecular catalysts for the oxygen reduction reaction: The role of the N-pyridinium functional … |
L Scarpetta-Pizo, R Venegas, K Muñoz-Becerra, L Muñoz, A Toro-Labbé, ... |
Electrochimica Acta 468, 143160 |
4 |
2.023 |
| 11 |
Elucidating the electronic synergetic effects in heteroatomic doped FeN4-CNR (R=-F,-Cl,-Br) oxygen reduction catalysts |
G Escobar, R Venegas, I Ponce, A Toro-Labbé, JH Zagal, FJ Recio, ... |
Electrochimica Acta 466, 143060 |
4 |
2.023 |
| 12 |
An Overview of the Catalytic Activity of MN4 Molecular Catalysts for the Heterogeneous Hydrogen Evolution Reaction |
K Muñoz-Becerra, FJ Recio, R Venegas, JH Zagal |
Current Opinion in Electrochemistry, 101387 |
3 |
2.023 |
| 13 |
Covalent modification of glassy carbon surface via radical-induced grafting from electrochemical oxidation of imine derivatives |
CP Candia, E Imbarack, CP Silva, CF Olguín, G Jara, S Fuentes, JH Zagal, ... |
Electrochimica Acta 459, 142544 |
2 |
2.023 |
| 14 |
Iron and cobalt phthalocyanine embedded electrospun carbon nanofiber-based catalysts for anion exchange membrane fuel cell cathode |
K Muuli, A Sokka, M Mooste, J Lilloja, V Gudkova, M Käärik, M Otsus, ... |
Journal of Catalysis 422, 117-130 |
18 |
2.023 |
| 15 |
Effect of Plasma Argon Pretreatment on the Surface Properties of AZ31 Magnesium Alloy |
C Montero, CG Ramírez, L Muñoz, M Sancy, M Azócar, M Flores, ... |
Materials 16 (6), 2327 |
1 |
2.023 |
| 16 |
Recent Advances in Non-Precious Metal Single-Atom Electrocatalysts for Oxygen Reduction Reaction in Low-Temperature Polymer-Electrolyte Fuel Cells |
KT Ave Sarapuu, Jaana Lilloja, Srinu Akula, José H. Zagal, Stefania Specchia |
ChemCatChem, in press |
38 |
2.023 |
| 17 |
Effect of Plasma Argon Pretreatment on the Surface Properties of AZ31 Magnesium Alloy. Materials 2023, 16, 2327 |
C Montero, CG Ramírez, L Muñoz, M Sancy, M Azócar, M Flores, ... |
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2.023 |
| 18 |
Rising stars in electrochemistry 2021 |
V Briega-Martos, J Soleymani, JH Zagal |
Frontiers in Chemistry 10, 1099546 |
|
2.022 |
| 19 |
Electrocatalytic Self-Assembled Nanoarchitectonics for Clean Energy Conversion Applications |
I Ponce, JH Zagal, AM Méndez-Torres |
Self-Assembly of Materials and Their Applications |
|
2.022 |
| 20 |
Iron and Nickel Phthalocyanine‐Modified Nanocarbon Materials as Cathode Catalysts for Anion‐Exchange Membrane Fuel Cells and Zinc‐Air Batteries |
Y Kumar, E Kibena‐Põldsepp, M Mooste, J Kozlova, A Kikas, J Aruväli, ... |
ChemElectroChem 9 (20), e202200717 |
39 |
2.022 |
| 21 |
Effect of electrolyte media on the catalysis of Fe Phthalocyanine toward the oxygen reduction reaction: ab initio molecular dynamics simulations and experimental analyses |
W Orellana, C Zuniga, A Gatica, MS Ureta-Zanartu, JH Zagal, F Tasca |
ACS Catalysis 12 (20), 12786-12799 |
23 |
2.022 |
| 22 |
Strategies to improve the catalytic activity and stability of bioinspired Cu molecular catalysts for the ORR |
K Muñoz-Becerra, JH Zagal, R Venegas, FJ Recio |
Current Opinion in Electrochemistry 35, 101035 |
15 |
2.022 |
| 23 |
(Keynote) Interpretation of Oxygen Reduction Activity Volcano Correlations for MN4 Molecular Catalysts Compared to Those for Metallic Electrodes |
JH Zagal, F Tasca, I Ponce |
Electrochemical Society Meeting Abstracts 241, 2057-2057 |
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2.022 |
| 24 |
Fe3O4 Templated Pyrolyzed Fe−N−C Catalysts. Understanding the role of N‐Functions and Fe3C on the ORR Activity and Mechanism |
R Venegas, C Zúñiga, JH Zagal, A Toro‐Labbé, JF Marco, N Menéndez, ... |
ChemElectroChem 9 (11), e202200115 |
24 |
2.022 |
| 25 |
Mapping Reactivity Descriptors for MN4 Molecular Catalysts By Modulating the Electronic Structure of the Active Site. Oxygen Reduction and Beyond. |
JH Zagal, I Ponce, R Matute |
241st ECS Meeting (May 29-June 2, 2022) |
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2.022 |